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Implementing generative adversarial network (GAN) as a data-driven multi-site stochastic weather generator for flood frequency estimation

Hong Kang Ji, Majid Mirzaei, Sai Hin Lai, Adnan Dehghani, Amin Dehghani

2023Environmental Modelling & Software26 citationsDOIOpen Access PDF

Abstract

Precipitation is a key driving factor of hydrologic modeling for impact studies. However, there are challenges due to limited long-term data availability and complex parameterizations of existing stochastic weather generators (SWGs) due to spatiotemporal uncertainty. We introduced state-of-the-art Generative Adversarial Network (GAN) as a data-driven multi-site SWG and synthesized extensive hourly precipitation over 30 years at 14 stations. These samples were then fed into an hourly-calibrated SWAT model for streamflow generation. Results showed that the well-trained GAN improved rainfall data by accurately representing spatiotemporal distribution of raw data rather than simply replicating its statistical characteristics. GAN also helped display authentic spatial correlation patterns of extreme rainfall events well. We concluded that GAN offers a superior spatiotemporal distribution of raw data compared to conventional methods, thus enhancing the reliability of flood frequency evaluations.

Topics & Concepts

Raw dataFlood mythReliability (semiconductor)StreamflowPrecipitationEnvironmental scienceComputer scienceGenerator (circuit theory)Generative adversarial networkKey (lock)Data miningMeteorologyMachine learningGeographyDeep learningCartographyPower (physics)Drainage basinComputer securityPhysicsArchaeologyQuantum mechanicsProgramming languageFlood Risk Assessment and ManagementHydrology and Watershed Management StudiesPrecipitation Measurement and Analysis
Implementing generative adversarial network (GAN) as a data-driven multi-site stochastic weather generator for flood frequency estimation | Litcius